Pro-Tumor Necrosis Factor-α Processing Activity Is Tightly Controlled by a Component That Does Not Affect Notch Processing

Anna Merlos-Suárez,Juan Fernández-Larrea,Pranitha Reddy,José Baselga,Joaquı́N Arribas

doi:10.1074/jbc.273.38.24955

Anna Merlos-Suárez, Juan Fernández-Larrea + Show 3 more

Open Access

https://doi.org/10.1074/jbc.273.38.24955

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Abstract

The extracellular domain of a heterogeneous group of transmembrane proteins can be proteolytically released from the cell surface, a process known as protein ectodomain shedding. Despite the biomedical importance of several substrates of the shedding system, such as the beta-amyloid precursor protein (betaAPP), little is known about the regulation of protein ectodomain shedding, and the only protease known to be involved is the metalloprotease disintegrin, tumor necrosis factor-alpha converting enzyme (TACE). Here, we show that previously described pro-transforming growth factor-alpha shedding-defective cell mutants (M2 cells), known to be defective in ectodomain shedding of several molecules, that include betaAPP, fail to shed the ectodomain of pro-TNF-alpha. The target of the mutation is a component required for TACE activity, since transfection of TACE into M2 cells has no effect on the shedding of pro-TNF-alpha and somatic cell fusions between M2 cells and TACE null cells recover the ability to shed pro-TNF-alpha, pro-transforming growth factor-alpha, and betaAPP. Furthermore, we show that TACE is also necessary for the shedding of betaAPP since TACE null cells show defective betaAPP shedding. Biochemical evidence shows that the component that controls TACE is different from protein kinase C, the only known activator of protein ectodomain shedding, and that this component does not affect biosynthesis or processing of TACE or other metalloprotease disintegrins. The component mutated in M2 cells is likely to control only a subset of metalloprotease disintegrins involved in regulated ectodomain shedding, since Notch processing, a process known to be dependent on the activity of another metalloprotease disintegrin, Kuzbanian, is normal in M2 cells.

Highlights

The extracellular domain of a functionally and structurally diverse group of transmembrane proteins can be shed from the cell surface via proteolytic cleavage, a process known as ectodomain shedding
It is not known the number of metalloprotease disintegrins involved in protein ectodomain shedding but it has been recently found that the activity of Kuzbanian, another member of the metalloprotease disintegrin family, is necessary for the cleavage of Notch receptors in the ectodomain, and that this cleavage is important for Notch function in Drosophila
Since the target of the mutation that affects M2, a cell line initially isolated for lack of pro-TGF-␣ shedding, is necessary for the shedding of pro-TNF-␣, we investigated the possible effect of tumor necrosis factor-␣ converting enzyme (TACE) expression in M2 cells

Summary

Introduction

The extracellular domain of a functionally and structurally diverse group of transmembrane proteins can be shed from the cell surface via proteolytic cleavage, a process known as ectodomain shedding. Analysis of shedding defective cell mutants and TACE null cells reveals the existence of a component of the shedding system that tightly controls the activity of at least one member of the metalloprotease disintegrin family, involved in the shedding of relevant proteins such as pro-TNF-␣ or ␤APP.

Results

Conclusion